Find the Coefficient of Kinetic Friction

AI Thread Summary
To find the coefficient of kinetic friction for the sled being pulled, first calculate the original mass using the equation F = ma with the given force of 15 N and acceleration of 0.40 m/s². After determining the original mass, add the extra mass of 4.3 kg to find the total mass. Set up two equations: one for the sled before the additional mass and one after, using the relationship between pulling force, frictional force, and acceleration. The discussions highlight the need for clarity in the problem setup and emphasize the importance of correctly applying the equations to find the coefficient of kinetic friction. The final calculated coefficient should be around 0.01.
firewareagle
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I have this homework question: A sled is pulled with a horizontal force of 15 N along a level trail, and the acceleration is found to be 0.40 m/s2. An extra mass m = 4.3 kg is placed on the sled. If the same force is just barely able to keep the sled moving, what is the coefficient of kinetic friction between the sled and the trail?

Important equations:
Fk = uk *N
F = ma

Attempt to solve:
Sum of all forces = ma
sum of all forces = Fpull - Fk
Fpull - Fk = ma
Fpull - ma = Fk
Fpull - ma = uk *N
(Fpull - ma)/mg = uk

I'm unable to solve since I don't know what the original mass was, since it says 4.3 extra mass was added. Can someone help me out??
 
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the force and acceleration is given to you use those values to first calculate the mass. essentially your question is two parts the first part is to calculate the original mass using F=ma use that resulatant and add your new mass then calculate the kinetic friction
 
Last edited:
right I did that, but i still didn't get the right answer

that way the answer would be 0.0041

but the answer is actually 0.01
 
firewareagle said:
Fpull - Fk = ma
Write two equations: One for before the 4.3 kg mass is added and one for after. You'll have two equations and two unknowns.
 

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